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21 работа
1) General subject: (отдельно выполненная) a piece of work, action, activity, assignment, career, contribution, desert, dinkum, duty (машины), employment, factorage, firing (реактивного двигателя), function, handiwork, job, labor, labour, make, making, operation, pensum (как наказание), performance, piece of work (отдельно выполненная), possie, proceedings (комиссии), prosecution, provisional job (зубная), run, task, toil, working, work, call (в занчении "хорошая работа"), commitment, article (in a book or periodical), publication (book, journal, etc.), (с испытательным сроком) feeler3) Military: project (напр. исследовательская, лабораторная), works4) Engineering: batch-and-queue (практика массового производства), behavior (конструкции, материала), functional operation, office (место работы), service, work operation5) Jocular: racket, stand the racket6) Construction: activity (в сетевом планировании), operating, performance (материала, конструкции, инструмента)7) Mathematics: investigation, paper, report, study, the work on measuring cosmic ray intensity (по чему-либо)8) Religion: outreach9) Railway term: behaviour10) Economy: business11) Accounting: project13) Automobile industry: duty (машины, конструкции), functionment (машины), performance (машины)14) Architecture: work (во всех значениях слова)15) Mining: tut16) Psychology: cultivation (над собой, над характером)19) Information technology: effort, manipulation, working on20) Oil: workaround, wrk, running22) Advertising: employment (по найму), proceeding23) Business: efforts, situation, stint24) Drilling: effect, strain (напр. на растяжение)25) Sakhalin energy glossary: deployment27) Automation: energy, functioning, project (по решению проблемы)28) Quality control: (исправная) performance (машины), project (по решению отдельной проблемы или созданию нового изделия), run (машины), running (машины), service (прибора)29) General subject: actuation, manipulation (рычагами), run (название положения рычага ТНВД)30) Makarov: a piece of work, action (машины, механизма и т.п.), activities, activity (физический процесс), behaviour (конструкции, материала), item (в перечне), job (конкретное или ограниченное задание, занятие, труд), op (operation), operation (функционирование), performance (величина с качественным оттенком, показатель работы, рабочая характеристика), reference, run (мотора, машины), service (функционирование), use (функционирование), work (продукт труда, готовое изделие), work (физический процесс), workmanship (качество, способ исполнения)31) Taboo: monkey-farting32) SAP.fin. output ( units of production), srvc.33) Combustion gas turbines: performance (агрегата) -
22 участок
1) General subject: allottee, block, branch, circuit, clot (породы), constabulary, district, district (горных работ, тж. mining district), extent, field, locality, location, lot (земли), nick, parcel (земли), piece (земли), plat, plot (земли), polling-center, practice (здравоохранение), precinct, region, section, sector, site (для строительства), station, strand (транспортера), tract, burial space (место захоронения, место на кладбище.), burial plot (место захоронения, место на кладбище), (в дополнение к дому) acreage2) Computers: bucket6) Medicine: division, locus (болезни или поражения), portion7) American: homestead (поселенца)8) Military: corner, front, ground (местности), phase, site, sub-district, subdistrict (района), window9) Engineering: arm (цепи), department, flight, floor, ground, island, land, part, place, project land, reach (реки или канала с однородными гидрологическими характеристиками), segment, spacing, span, spot, zone10) Agriculture: close (земли, преим. огороженный), (опытный) plot11) Construction: pipe run (трубопровода), pipe section (трубопровода), reach (реки, канала), run (трубопровода), section (трубопровода, дороги, канала и т. п.), stretch12) Mathematics: cell, site territory13) Railway term: canton, district (железной дороги), territory14) Law: polling station, precinct station15) Commerce: area salesman17) Accounting: segment (направление деятельности или зона ответственности внутри предприятия), site (для застройки)19) Mining: division (шахты), lease (на нефтяном промысле), panel, plot (под разработку или разведку), probable oil land, tract (месторождения нефти или газа)21) Metallurgy: dock22) Oil: division (напр. трубопровода), lease, pool, prospective oil land24) Astronautics: leg (траектории)25) Cartography: block (напр, леса, заповедника, угодий)26) Mechanics: bay27) Coolers: length28) Business: area30) Oil&Gas technology acreage31) Network technologies: slot32) Polymers: fragment33) Automation: bay (цеха), division (цеха), leg (цепи), line, (производственный) pod (напр. ГПС), (производственный) workshop, workshop section (цеха)36) Chemical weapons: bay (цеха, производства)37) Makarov: compartment (леса), cut, division (напр., трубопровода), estate, field (для какой-л. цели), field (кирпичной стены между проёмами или углами здания), interval, leg (маршрута полёта), length (напр., провода), limits, line (производственный), pad, path, reach (канала, реки), spacing (линии связи), span (линии связи), strand (транспортёра), stretch (водотока), subdivision, track (лесной)38) Taboo: beat39) Road traffic: (шоссе, дороги) portion (A portion of the Barnet Highway was closed for several hours Sunday evening due to a gas leak.)40) Gold mining: area (напр. areas referred to in this report; areas selected for future work), partially explored area41) Electrochemistry: speck42) Logistics: subarea43) Cement: property44) Coal: tenement (участок угольного месторождения, подлежащего разработке. Спец. в Австралии все подобные участки снимаются в аренду от государства.) -
23 Gilbert, John
[br]b. 1724 Cotton Hall, Cotton, Staffordshire, Englandd. 3 August 1795 Worsley, Lancashire, England[br]English land agent, mining engineer and canal entrepreneur.[br]Younger son of a gentleman farmer, Gilbert was apprenticed to Matthew Boulton, a buckle maker of Birmingham and father of the Matthew Boulton who was associated with James Watt. He also gained mining experience. Through the influence of his older brother, Thomas Gilbert, he became Land Agent to the Duke of Bridgewater (Francis Egerton) for the Worsley estate. He proposed extensions to the underground waterway system and also made a preliminary survey for a canal from Worsley to Salford, a project which Brindley joined as Assistant Engineer. Gilbert was therefore the prime mover in the construction of the Bridgewater Canal, which received its Act in 1759. He then collected evidence for the second Act to permit construction of the aqueduct across the Irwell at Barton. He was involved in a consortium with his brother Thomas and Earl Gower to develop the Earl's East Shropshire mines and to build the Shrewsbury and the Shropshire Coal Canals. He also excavated the Speedwell Mine at Castleton in Derbyshire between 1774 and 1781 and constructed the underground canal to serve the workings. With his brother, he was involved in the promotion of the Trent \& Mersey Canal and was a shareholder in the undertaking. Among his other entrepreneurial activities, he entered the canal-carrying business. His last work was beginning the underground inclined planes at Worsley, but these were not completed until after his death. His important place in the historical development of the inland navigational system in England has been very much overlooked.[br]Further ReadingP.Lead, 1990, Agents of Revolution: John and Thomas Gilbert-Entrepreneurs, Keele University Centre for Local History.JHB -
24 Polhem, Christopher
SUBJECT AREA: Mining and extraction technology[br]b. 18 December 1661 Tingstade, Gotland, Sweden d. 1751[br]Swedish engineer and inventor.[br]He was the eldest son of Wolf Christopher Polhamma, a merchant. The father died in 1669 and the son was sent by his stepfather to an uncle in Stockholm who found him a place in the Deutsche Rechenschule. After the death of his uncle, he was forced to find employment, which he did with the Biorenklou family near Uppsala where he eventually became a kind of estate bailiff. It was during this period that he started to work with a lathe, a forge and at carpentry, displaying great technical ability. He realized that without further education he had little chance of making anything of his life, and accordingly, in 1687, he registered at the University of Uppsala where he studied astronomy and mathematics, remaining there for three years. He also repaired two astronomical pendulum clocks as well as the decrepit medieval clock in the cathedral. After a year's work he had this clock running properly: this was his breakthrough. He was summoned to Stockholm where the King awarded him a salary of 500 dalers a year as an encouragement to further efforts. Around this time, one of increasing mechanization and when mining was Sweden's principal industry, Pohlem made a model of a hoist frame for mines and the Mines Authority encouraged him to develop his ideas. In 1693 Polhem completed the Blankstot hoist at the Stora Kopparberg mine, which attracted great interest on the European continent.From 1694 to 1696 Polhem toured factories, mills and mines abroad in Germany, Holland, England and France, studying machinery of all kinds and meeting many foreign engineers. In 1698 he was appointed Director of Mining Engineering in Sweden, and in 1700 he became Master of Construction in the Falu Mine. He installed the Karl XII hoist there, powered by moving beams from a distant water-wheel. His plan of 1697 for all the machinery at the Falu mine to be driven by three large and remote water-wheels was never completed.In 1707 he was invited by the Elector of Hanover to visit the mines in the Harz district, where he successfully explained many of his ideas which were adopted by the local engineers. In 1700, in conjunction with Gabriel Stierncrona, he founded the Stiersunds Bruk at Husby in Southern Dalarna, a factory for the mass production of metal goods in iron, steel and bronze. Simple articles such as pans, trays, bowls, knives, scissors and mirrors were made there, together with the more sophisticated Polhem lock and the Stiersunds clock. Production was based on water power. Gear cutting for the clocks, shaping hammers for plates, file cutting and many other operations were all water powered, as was a roller mill for the sheet metal used in the factory. He also designed textile machinery such as stocking looms and spinning frames and machines for the manufacture of ribbons and other things.In many of his ideas Polhem was in advance of his time and Swedish country society was unable to absorb them. This was largely the reason for the Stiersund project being only a partial success. Polhem, too, was of a disputatious nature, self-opinionated almost to the point of conceit. He was a prolific writer, leaving over 20,000 pages of manuscript notes, drafts, essays on a wide range of subjects, which included building, brick-making, barrels, wheel-making, bell-casting, organ-building, methods of stopping a horse from bolting and a curious tap "to prevent serving maids from sneaking wine from the cask", the construction of ploughs and threshing machines. His major work, Kort Berattelse om de Fornamsta Mechaniska Inventioner (A Brief Account of the Most Famous Inventions), was printed in 1729 and is the main source of knowledge about his technological work. He is also known for his "mechanical alphabet", a collection of some eighty wooden models of mechanisms for educational purposes. It is in the National Museum of Science and Technology in Stockholm.[br]Bibliography1729, Kort Berattelse om de Fornamsta Mechaniska Inventioner (A Brief Account of the Most Famous Inventions).Further Reading1985, Christopher Polhem, 1661–1751, TheSwedish Daedalus' (catalogue of a travelling exhibition from the Swedish Institute in association with the National Museum of Science and Technology), Stockholm.IMcN -
25 Trevithick, Richard
[br]b. 13 April 1771 Illogan, Cornwall, Englandd. 22 April 1833 Dartford, Kent, England[br]English engineer, pioneer of non-condensing steam-engines; designed and built the first locomotives.[br]Trevithick's father was a tin-mine manager, and Trevithick himself, after limited formal education, developed his immense engineering talent among local mining machinery and steam-engines and found employment as a mining engineer. Tall, strong and high-spirited, he was the eternal optimist.About 1797 it occurred to him that the separate condenser patent of James Watt could be avoided by employing "strong steam", that is steam at pressures substantially greater than atmospheric, to drive steam-engines: after use, steam could be exhausted to the atmosphere and the condenser eliminated. His first winding engine on this principle came into use in 1799, and subsequently such engines were widely used. To produce high-pressure steam, a stronger boiler was needed than the boilers then in use, in which the pressure vessel was mounted upon masonry above the fire: Trevithick designed the cylindrical boiler, with furnace tube within, from which the Cornish and later the Lancashire boilers evolved.Simultaneously he realized that high-pressure steam enabled a compact steam-engine/boiler unit to be built: typically, the Trevithick engine comprised a cylindrical boiler with return firetube, and a cylinder recessed into the boiler. No beam intervened between connecting rod and crank. A master patent was taken out.Such an engine was well suited to driving vehicles. Trevithick built his first steam-carriage in 1801, but after a few days' use it overturned on a rough Cornish road and was damaged beyond repair by fire. Nevertheless, it had been the first self-propelled vehicle successfully to carry passengers. His second steam-carriage was driven about the streets of London in 1803, even more successfully; however, it aroused no commercial interest. Meanwhile the Coalbrookdale Company had started to build a locomotive incorporating a Trevithick engine for its tramroads, though little is known of the outcome; however, Samuel Homfray's ironworks at Penydarren, South Wales, was already building engines to Trevithick's design, and in 1804 Trevithick built one there as a locomotive for the Penydarren Tramroad. In this, and in the London steam-carriage, exhaust steam was turned up the chimney to draw the fire. On 21 February the locomotive hauled five wagons with 10 tons of iron and seventy men for 9 miles (14 km): it was the first successful railway locomotive.Again, there was no commercial interest, although Trevithick now had nearly fifty stationary engines completed or being built to his design under licence. He experimented with one to power a barge on the Severn and used one to power a dredger on the Thames. He became Engineer to a project to drive a tunnel beneath the Thames at Rotherhithe and was only narrowly defeated, by quicksands. Trevithick then set up, in 1808, a circular tramroad track in London and upon it demonstrated to the admission-fee-paying public the locomotive Catch me who can, built to his design by John Hazledine and J.U. Rastrick.In 1809, by which date Trevithick had sold all his interest in the steam-engine patent, he and Robert Dickinson, in partnership, obtained a patent for iron tanks to hold liquid cargo in ships, replacing the wooden casks then used, and started to manufacture them. In 1810, however, he was taken seriously ill with typhus for six months and had to return to Cornwall, and early in 1811 the partners were bankrupt; Trevithick was discharged from bankruptcy only in 1814.In the meantime he continued as a steam engineer and produced a single-acting steam engine in which the cut-off could be varied to work the engine expansively by way of a three-way cock actuated by a cam. Then, in 1813, Trevithick was approached by a representative of a company set up to drain the rich but flooded silver-mines at Cerro de Pasco, Peru, at an altitude of 14,000 ft (4,300 m). Low-pressure steam engines, dependent largely upon atmospheric pressure, would not work at such an altitude, but Trevithick's high-pressure engines would. Nine engines and much other mining plant were built by Hazledine and Rastrick and despatched to Peru in 1814, and Trevithick himself followed two years later. However, the war of independence was taking place in Peru, then a Spanish colony, and no sooner had Trevithick, after immense difficulties, put everything in order at the mines then rebels arrived and broke up the machinery, for they saw the mines as a source of supply for the Spanish forces. It was only after innumerable further adventures, during which he encountered and was assisted financially by Robert Stephenson, that Trevithick eventually arrived home in Cornwall in 1827, penniless.He petitioned Parliament for a grant in recognition of his improvements to steam-engines and boilers, without success. He was as inventive as ever though: he proposed a hydraulic power transmission system; he was consulted over steam engines for land drainage in Holland; and he suggested a 1,000 ft (305 m) high tower of gilded cast iron to commemorate the Reform Act of 1832. While working on steam propulsion of ships in 1833, he caught pneumonia, from which he died.[br]BibliographyTrevithick took out fourteen patents, solely or in partnership, of which the most important are: 1802, Construction of Steam Engines, British patent no. 2,599. 1808, Stowing Ships' Cargoes, British patent no. 3,172.Further ReadingH.W.Dickinson and A.Titley, 1934, Richard Trevithick. The Engineer and the Man, Cambridge; F.Trevithick, 1872, Life of Richard Trevithick, London (these two are the principal biographies).E.A.Forward, 1952, "Links in the history of the locomotive", The Engineer (22 February), 226 (considers the case for the Coalbrookdale locomotive of 1802).See also: Blenkinsop, JohnPJGR -
26 выпускать
1) General subject: bleed (воздух), bring out, deliver (с завода), discharge, drain, drop out, ease (швы в платье), eject (дым и т. п.), elide, emit (деньги, воззвания и т. п.), empty, exhaust (пар), float (заём, акции), get out (о книге, модели чего-л. и т.п.), give forth, give out, graduate, issue, launch (снаряд), leave out, let (out of, from), let loose, let off (пар; тж. перен.), loose, omit, outlet, output, produce, project, publish, push out, put out, quit hold of (из рук), release, relinquish, send out, slip (стрелу), sluice, squib, tap, throw off, turn, turn out, unclasp (из рук, из объятий), unhand (из рук), unsluice, vent (дым и т. п.), vent (дым и т.п.), vent-hole (дым и т.п.), venthole (дым и т.п.), churn out, let out (о платье), let out (платье), (например, пар, гной) tap out, blow out2) Geology: ejaculate5) Naval: get away, release (из печати)6) Medicine: deflate8) Military: discharge9) Engineering: blow off (пар), deflate (газ), discharge (опорожнять), draw (руду), exhaust (отработавшие газы), let down (шасси), let off (воздух, газ, пар), let out (газ), make (продукцию), produce (продукцию), relieve (газ), run out (механизацию крыла), tap (плавку), tap out10) Rare: (outlet) outlet11) Chemistry: delivered12) Construction: rush out13) Railway term: tap off (грязное масло)16) Architecture: produce (проект, продукцию и т.п.)17) Mining: abut, blow off (напр. пар, отработанный воздух), creep down19) Metallurgy: flush, run (металл из печи), tap (металл)20) TV: present21) Information technology: jet, release (вариант программного изделия), unleash22) Oil: bleed off (отстоявшуюся воду или грязь из резервуара), drawoff, empty (жидкость, газ), vent (газ)25) Silicates: let off26) Business: put forth27) Crystallography: withdraw29) Oil&Gas technology blow off30) Education: train31) Polymers: manufacture (продукцию)32) Automation: blow off (воздух), turn out (продукцию)33) Quality control: release (продукцию)35) Makarov: discharge (воду), discharge (опорожнять, выбрасывать), drain (воду), drop, escape, leave go, let (out of, from), let go, make (изготавливать), make, manufacture, produce, turn out (изготавливать), manufacture (изготавливать), produce (изготавливать), project (напр., снаряд), publish (о газете, журнале), release (давать выход, напр. воздуху, газу), release (новую версию программного изделия), tap (плавку из печи), tap a heat (плавку из печи), tap out (напр. шлак), turn out (изготавливать), yield, drain off, draw off (металл), cast off (соколов) -
27 engineer
1. инженер2. механик3. машинист4. сапёр
* * *
инженер; конструктор; pl. инженерно-технические работники
* * *
* * *
инженер; конструктор; pl инженерно-технические работники- cementing engineer
- certified reliability engineer
- chemical engineer
- chief reliability engineer
- corrosion engineer
- defect analysis engineer
- directional engineer
- drilling engineer
- drilling mud engineer
- electrical engineer
- failure analysis engineer
- field engineer
- field service engineer
- gas engineer
- geological engineer
- health-and-safety engineer
- hydraulic engineer
- inspecting engineer
- logging engineer
- maintainability engineer
- maintenance engineer
- maintenance-mechanical engineer
- mechanical engineer
- mining engineer
- mud engineer
- oil engineer
- operating engineer
- operation engineer
- petroleum engineer
- piping mechanical engineer
- principal project engineer
- product assurance engineer
- refinery engineer
- reliability engineer
- reliability group engineer
- reliability methods engineer
- reliability testing engineer
- reservoir engineer
- safety engineer
- service engineer
- superintendent engineer
- testing engineerАнгло-русский словарь нефтегазовой промышленности > engineer
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28 система
complex, chain, installation, method, repertoire вчт., repertory, structure, system* * *систе́ма ж.
systemдубли́ровать систе́му — duplicate a systemотла́живать систе́му — tune up a systemсисте́ма функциони́рует норма́льно киб. — the system is well-behavedавари́йная систе́ма ав. — emergency systemсисте́ма авари́йного покида́ния ( самолёта) — escape systemавтомати́ческая систе́ма — automatic systemсисте́ма автомати́ческого регули́рования [САР] — automatic-control system of the regulator(y) typeсисте́ма автомати́ческого регули́рования, де́йствующая по отклоне́нию — error-actuated control systemсисте́ма автомати́ческого регули́рования, за́мкнутая — closed-loop control systemсисте́ма автомати́ческого регули́рования, и́мпульсная — sampling control systemсисте́ма автомати́ческого регули́рования, многоё́мкостная — multicapacity control systemсисте́ма автомати́ческого регули́рования, многоко́нтурная — multiloop control systemсисте́ма автомати́ческого регули́рования, многоме́рная — multivariable control systemсисте́ма автомати́ческого регули́рования, програ́ммная — time-pattern control systemсисте́ма автомати́ческого регули́рования, разо́мкнутая — open-loop control systemсисте́ма автомати́ческого регули́рования следя́щего ти́па — servo-operation control systemсисте́ма автомати́ческого регули́рования со случа́йными возде́йствиями, и́мпульсная — random-input sampled-data systemсисте́ма автомати́ческого регули́рования со стабилиза́цией (проце́сса) — regulator-operation control systemсисте́ма автомати́ческого управле́ния [САУ] — automatic-control systemсисте́ма автомати́ческого управле́ния, цифрова́я — digital control systemсисте́ма автоподстро́йки частоты́ [АПЧ] — AFC systemсисте́ма АПЧ захва́тывает частоту́ — the AFC system locks on to the (desired) frequencyсисте́ма АПЧ осуществля́ет по́иск частоты́ — the AFC system searches for the (desired) frequencyсисте́ма автоподстро́йки частоты́, фа́зовая [ФАПЧ] — phase-lock loop, PLLагрега́тная, унифици́рованная систе́ма ( советская система пневматических средств автоматики) — standard-module pneumatic instrumentation systemадапти́вная систе́ма — adaptive systemапериоди́ческая систе́ма — critically damped systemасинхро́нная систе́ма — asynchronous systemастати́ческая систе́ма — zero-constant-error systemастати́ческая систе́ма второ́го поря́дка — Type 2 [zero-velocity-error] systemастати́ческая систе́ма пе́рвого поря́дка — Type 1 [zero-position-error] systemсисте́ма без резерви́рования — non-redundant systemсисте́ма блокиро́вки ( радиационной установки) — interlock systemсисте́ма ва́ла ( в допусках и посадках) — the basic shaft systemвентиляцио́нная систе́ма — ventilation systemвентиляцио́нная, вытяжна́я систе́ма — exhaust ventilation systemвзаи́мные систе́мы — mutual systemsсисте́ма водоснабже́ния — water(-supply) systemсисте́ма водоснабже́ния, оборо́тная — circulating [closed-circuit] water systemсисте́ма водоснабже́ния, прямото́чная — once-through [run-of-river cooling] systemсисте́ма возду́шного отопле́ния — warm-air heating systemсисте́ма воспроизведе́ния ( записи) — reproduction systemсисте́ма впры́ска двс. — injection systemсисте́ма впры́ска, предка́мерная двс. — antechamber system of injectionсисте́ма впу́ска двс. — induction [intake] systemсисте́ма вы́борки вчт. — selection systemвытяжна́я систе́ма — exhaust systemвычисли́тельная систе́ма — computer [computing] systemвычисли́тельная, многома́шинная систе́ма — multicomputer systemсисте́ма генера́тор — дви́гатель — Ward-Leonard speed-control systemгибри́дная систе́ма — hybrid systemсисте́ма громкоговоря́щей свя́зи — public-address [personnel-address, PA] systemгрузова́я систе́ма мор. — cargo (handling) systemдвухкомпоне́нтная систе́ма хим. — two-component [binary] systemдвухни́точная систе́ма тепл. — two-flow systemдвухпроводна́я систе́ма эл. — two-wire systemдвухэлектро́дная систе́ма ( электроннооптического преобразователя) — self-focusing (diod) systemдиспе́рсная систе́ма — disperse systemдиссипати́вная систе́ма — dissipative systemсисте́ма дистанцио́нного управле́ния — remote control systemдиффере́нтная систе́ма мор. — trim systemдифференциа́льная систе́ма тлф. — hybrid setсисте́ма дождева́ния — sprinkling systemсисте́ма до́пусков — tolerance systemсисте́ма до́пусков, двусторо́нняя [симметри́чная], преде́льная — bilateral system of tolerancesсисте́ма до́пусков и поса́док — system [classification] of fits and tolerancesсисте́ма до́пусков, односторо́нняя [асимметри́чная], преде́льная — unilateral system of tolerancesсисте́ма дрена́жа ( топливных баков) ав. — vent systemсисте́ма едини́ц — system of unitsсисте́ма едини́ц, междунаро́дная [СИ] — international system of units, SIсисте́ма едини́ц МКГСС уст. — MKGSS [metre-kilogram(me)-force-second ] system (of units)систе́ма едини́ц МКС — MKS [metre-kilogram(me)-second ] system (of units)систе́ма едини́ц МКСА — MKSA [metre-kilogram(me)-mass-second-ampere ] system (of units), absolute practical system of unitsсисте́ма едини́ц МКСГ — MKSG [metre-kilogram(me)-force-second-kelvin ] system (of units)систе́ма едини́ц МСС — MSC [metre-second-candela] system (of units)систе́ма едини́ц МТС — MTS [metre-ton-second] system (of units)систе́мы едини́ц СГС — CGS [centimetre-gram(me)-second ] systems (of units)систе́ма едини́ц, техни́ческая — engineer's system of unitsже́зловая систе́ма ж.-д. — staff systemсисте́ма жизнеобеспе́чения косм. — life-support (and survival) systemсисте́ма жизнеобеспе́чения, автоно́мная — back-pack life-support systemсисте́ма зажига́ния — ignition systemсисте́ма зажига́ния, полупроводнико́вая — transistor(ized) ignition systemсисте́ма зажига́ния, электро́нная — electronic ignition systemсисте́ма заземле́ния — earth [ground] networkзамедля́ющая систе́ма — ( в электровакуумных устройствах СВЧ) slow-wave structure; ( волноводная) slow-wave guide; ( коаксиальная) wave delay lineзамедля́ющая, встре́чно-стержнева́я систе́ма — interdigital [interdigitated] slow-wave structureзамедля́ющая, гребе́нчатая систе́ма — vane-line slow-wave structure, finned slow-wave guideзамедля́ющая, спира́льная систе́ма — helical slow-wave structureза́мкнутая систе́ма — closed systemсисте́ма за́писи вчт. — writing systemзапомина́ющая систе́ма вчт. — storage systemсисте́ма затопле́ния мор. — flood(ing) systemсисте́ма захо́да на поса́дку по кома́ндам с земли́ ав. — ground-controlled-approach [GCA] systemзачи́стная систе́ма ( танкера) — stripping systemсисте́ма зерка́л Фабри́—Перо́ — Fabry-Perot [FP] mirror systemзерка́льно-ли́нзовая систе́ма ( в микроскопе) — catadioptric systemсисте́ма золоудале́ния — ash-handling systemсисте́ма зо́льников кож. — lime yard, lime roundизоли́рованная систе́ма — isolated systemсисте́ма индивидуа́льного вы́зова свз. — paging systemинерциа́льная систе́ма — inertial systemинформацио́нная систе́ма — information systemинформацио́нно-поиско́вая систе́ма — information retrieval systemисхо́дная систе́ма — prototype [original] systemканализацио́нная систе́ма — sewer(age) systemканализацио́нная, общесплавна́я систе́ма — combined sewer(age) systemканализацио́нная, разде́льная систе́ма — separate sewer(age) systemсисте́ма коди́рования — coding systemколеба́тельная систе́ма — (преим. механическая) vibratory [vibrating] system; ( немеханическая) oscillatory [resonant] systemколеба́тельная, многорезона́торная систе́ма ( магнетрона) — multiple-cavity resonatorколориметри́ческая трёхцве́тная систе́ма — three-colour photometric systemсисте́ма кома́нд ЭВМ — instruction set of a computer, computer instruction setсисте́ма координа́т — coordinate systemсвя́зывать систе́му координа́т с … — tie in a coordinate system with …, tie coordinate system to …систе́ма координа́т, инерциа́льная — inertial frameсисте́ма координа́т, лаборато́рная — laboratory coordinate system, laboratory frame of referenceсисте́ма координа́т, ле́вая — left-handed coordinate systemсисте́ма координа́т, ме́стная — local (coordinate) systemсисте́ма координа́т, поко́ящаяся — rest (coordinate) systemсисте́ма координа́т, пото́чная аргд. — (relative) wind coordinate systemсисте́ма координа́т, пра́вая — right-handed coordinate systemсисте́ма координа́т, свя́занная с дви́жущимся те́лом — body axes (coordinate) systemсисте́ма координа́т, свя́занная с Землё́й — fixed-in-the-earth (coordinate) systemсисте́ма корре́кции гироско́па — gyro monitor, (long-term) referenceсисте́ма корре́кции гироско́па, магни́тная — magnetic gyro monitor, magnetic referenceсисте́ма корре́кции гироско́па, ма́ятниковая — gravity gyro monitor, gravity referenceсисте́ма криволине́йных координа́т — curvilinear coordinate systemкурсова́я систе́ма ав. — directional heading [waiting] systemли́тниковая систе́ма — gating [pouring gate] systemмагни́тная систе́ма — magnetic systemсисте́ма ма́ссового обслу́живания — queueing [waiting] systemсисте́ма ма́ссового обслу́живания, сме́шанная — combined loss-delay queueing [waiting] systemсисте́ма ма́ссового обслу́живания с ожида́нием — delay queueing [waiting] systemсисте́ма ма́ссового обслу́живания с отка́зами — congestion queueing [waiting] systemсисте́ма ма́ссового обслу́живания с поте́рями — loss-type queueing [waiting] systemмени́сковая систе́ма — meniscus [Maksutov] systemсисте́ма мер, метри́ческая — metric systemсисте́ма мер, типогра́фская — point systemмехани́ческая систе́ма — mechanical systemмехани́ческая, несвобо́дная систе́ма — constrained material systemсисте́ма мно́гих тел — many-body systemмногокана́льная систе́ма свз. — multichannel systemмногокомпоне́нтная систе́ма — multicomponent systemмногоме́рная систе́ма — multivariable systemмодели́руемая систе́ма — prototype systemмо́дульная систе́ма — modular systemмультипле́ксная систе́ма — multiplex systemсисте́ма набо́ра ( корпуса судна) — framing systemсисте́ма набо́ра, кле́тчатая — cellular framing systemсисте́ма набо́ра, попере́чная — transverse framing systemсисте́ма набо́ра, продо́льная — longitudinal framing systemсисте́ма набо́ра, сме́шанная — mixed framing systemсисте́ма навига́ции — navigation systemсисте́ма навига́ции, автоно́мная — self-contained navigation systemсисте́ма навига́ции, гиперболи́ческая — hyperbolic navigation systemсисте́ма навига́ции, дальноме́рная — rho-rho [ - ] navigation systemсисте́ма навига́ции, дальноме́рно-угломе́рная — rho-theta [ - ] navigation systemсисте́ма навига́ции, кругова́я — rho-rho [ - ] navigation systemсисте́ма навига́ции, ра́зностно-дальноме́рная [РДНС] — hyperbolic navigation systemсисте́ма навига́ции, угломе́рная — theta-theta [ - ] navigation systemсисте́ма на стру́йных элеме́нтах, логи́ческая — fluid logic systemсисте́ма нумера́ции тлф. — numbering schemeсисте́ма обду́ва стё́кол авто, автмт. — demisterсисте́ма обнаруже́ния оши́бок ( в передаче данных) свз. — error detection systemсисте́ма обогре́ва стё́кол авто, ав. — defrosterсисте́ма обозначе́ний — notation, symbolismсисте́ма обозначе́ний Междунаро́дного нау́чного радиообъедине́ния — URSI symbol systemсисте́ма обозначе́ния про́бы, кара́тная — carat test sign systemсисте́ма обозначе́ния про́бы, метри́ческая — metric test sign systemобора́чивающая систе́ма опт. — erecting [inversion (optical)] systemобора́чивающая, при́зменная систе́ма опт. — prism-erecting (optical) systemсисте́ма обрабо́тки да́нных — data processing [dp] systemсисте́ма обрабо́тки да́нных в реа́льном масшта́бе вре́мени — real time data processing systemсисте́ма обрабо́тки да́нных, операти́вная — on-line data processing systemсисте́ма обрабо́тки отхо́дов — waste treatment systemсисте́ма объё́много пожаротуше́ния мор. — fire-smothering systemодноотка́зная систе́ма — fall-safe systemопти́ческая систе́ма — optical system, optical trainопти́ческая, зерка́льно-ли́нзовая систе́ма — catadioptric systemсисте́ма ориента́ции ав. — attitude control systemороси́тельная систе́ма — irrigation system, irrigation projectсисте́ма ороше́ния мор. — sprinkling systemсисте́ма освеще́ния — lighting (system)осуши́тельная систе́ма мор. — drain(age) systemсисте́ма отбо́ра во́здуха от компре́ссора — compressor air-bleed systemсисте́ма отве́рстия ( в допусках и посадках) — the basic hole systemотклоня́ющая систе́ма ( в ЭЛТ) — deflecting system, deflection yokeотклоня́ющая, ка́дровая систе́ма — vertical (deflection) yokeотклоня́ющая, магни́тная систе́ма — magnetic (deflection) yokeотклоня́ющая, стро́чная систе́ма — horizontal [line] (deflection) yokeсисте́ма относи́тельных едини́ц — per-unit systemотопи́тельная систе́ма — heating systemотопи́тельная систе́ма с разво́дкой све́рху — down-feed heating systemотопи́тельная систе́ма с разво́дкой сни́зу — up-feed heating systemсисте́ма отсчё́та — frame of reference, (reference) frame, reference systemсисте́ма отсчё́та, инерциа́льная — inertial frame of referenceсисте́ма охлажде́ния — cooling systemсисте́ма охлажде́ния, возду́шная — air-cooling systemсисте́ма охлажде́ния, жи́дкостная — liquid-cooling systemсисте́ма охлажде́ния, испари́тельная — evaporative cooling systemсисте́ма охлажде́ния, каска́дная — cascade refrigeration systemсисте́ма охлажде́ния непосре́дственным испаре́нием холоди́льного аге́нта — direct expansion systemсисте́ма охлажде́ния, пане́льная — panel cooling systemсисте́ма охлажде́ния, рассо́льная, двухтемперату́рная — dual-temperature brine refrigeration systemсисте́ма охлажде́ния, рассо́льная, закры́тая — closed brine cooling systemсисте́ма охлажде́ния, рассо́льная, с испаре́нием — brine spray cooling systemсисте́ма охлажде́ния с теплозащи́тной руба́шкой — jacketed cooling systemсисте́ма очи́стки воды́ — water purification systemсисте́ма па́мяти — memory [storage] systemсисте́ма парашю́та, подвесна́я — parachute harnessсисте́ма переда́чи да́нных — data transmission systemсисте́ма переда́чи да́нных с обра́тной свя́зью — information feedback data transmission systemсисте́ма переда́чи да́нных с коммута́цией сообще́ний и промежу́точным хране́нием — store-and-forward data networkсисте́ма переда́чи да́нных с реша́ющей обра́тной свя́зью — decision feedback data transmission systemсисте́ма переда́чи и́мпульсов набо́ра, шле́йфная тлф. — loop dialling systemсисте́ма переда́чи на одно́й боково́й полосе́ и пода́вленной несу́щей — single-sideband suppressed-carrier [SSB-SC] systemсисте́ма переда́чи на одно́й боково́й полосе́ с осла́бленной несу́щей — single-sideband reduced carrier [SSB-RC] systemсисте́ма пита́ния двс. — fuel systemсисте́ма пита́ния котла́ — boiler-feed piping systemсисте́ма питьево́й воды́ мор. — drinking-water [portable-water] systemсисте́ма пода́чи то́плива, вытесни́тельная — pressure feeding systemсисте́ма пода́чи то́плива самотё́ком — gravity feeding systemсисте́ма пода́чи то́плива, турбонасо́сная — turbopump feeding systemподви́жная систе́ма ( измерительного прибора) — moving element (movement не рекомендован соответствующими стандартами)систе́ма пожа́рной сигнализа́ции — fire-alarm systemсисте́ма пожаротуше́нения — fire-extinguishing systemсисте́ма поса́дки — landing systemсисте́ма поса́дки по прибо́рам — instrument landing system (сокращение ILS относится к международной системе, советская система обозначается СП — instrument landing system)систе́ма проду́вки авто — scavenging systemпротивообледени́тельная систе́ма ав. — ( для предотвращения образования льда) anti-icing [ice protection] system; ( для удаления образовавшегося льда) de-icing systemпротивопожа́рная систе́ма — fire-extinguishing systemпротивото́чная систе́ма — counter-current flow systemсисте́ма прямо́го перено́са ( электроннооптического преобразователя) — proximity focused systemпрямото́чная систе́ма — direct-flow systemсисте́ма прямоуго́льных координа́т — Cartesian [rectangular] coordinate systemсисте́ма, рабо́тающая в и́стинном масшта́бе вре́мени — real-time systemрадиолокацио́нная, втори́чная систе́ма УВД — ( для работы внутри СССР) SSR system; ( отвечающая нормам ИКАО) ICAO SSR systemрадиолокацио́нная систе́ма с электро́нным скани́рованием — electronic scanning radar system, ESRSрадиомая́чная систе́ма — radio rangeрадиомая́чная, многокана́льная систе́ма — multitrack radio rangeсисте́ма радионавига́ции — radio-navigation system (см. тж. система навигации)развё́ртывающая систе́ма тлв. — scanning systemсисте́ма разрабо́тки — mining system, method of miningраспредели́тельная систе́ма — distribution systemрегенерати́вная систе́ма тепл. — feed heating systemрезерви́рованная систе́ма — redundant systemсисте́ма ремне́й, подвесна́я ( респиратора) — harnessсисте́ма ру́бок лес. — cutting systemсамонастра́ивающаяся систе́ма — self-adjusting systemсамообуча́ющаяся систе́ма киб. — learning systemсамоорганизу́ющаяся систе́ма — self-organizing systemсамоприспоса́бливающаяся систе́ма киб. — adaptive systemсамоуравнове́шивающаяся систе́ма — self-balancing systemсамоусоверше́нствующаяся систе́ма — evolutionary systemсанита́рная систе́ма мор. — sanitary systemсисте́ма свя́зи — communication systemсопряга́ть систе́му свя́зи, напр. с ЭВМ — interface a communication network with, e. g., a computerуплотня́ть систе́му свя́зи телегра́фными кана́лами — multiplex telegraph channels on a communication linkсисте́ма свя́зи, асинхро́нная — asyncronous communication systemсисте́ма свя́зи, двои́чная — binary communication systemсисте́ма свя́зи, многокана́льная — multi-channel communication systemсисте́ма свя́зи на метео́рных вспы́шках — meteor burst [meteor-scatter] communication systemсисте́ма свя́зи, разветвлё́нная — deployed communication systemсисте́ма свя́зи с испо́льзованием да́льнего тропосфе́рного рассе́яния — troposcatter communication systemсисте́ма свя́зи с испо́льзованием ионосфе́рного рассе́яния — ionoscatter communication systemсисте́ма свя́зи с переспро́сом — ARQ communication systemсисте́ма свя́зи, уплотнё́нная — multiplex communication systemсисте́ма свя́зи, уплотнё́нная, с временны́м разделе́нием сигна́лов — time division multiplex [TDM] communication systemсисте́ма свя́зи, уплотнё́нная, с разделе́нием по ко́дам — code-division multiplex(ing) communication systemсисте́ма свя́зи, уплотнё́нная, с часто́тным разделе́нием сигна́лов — frequency division multiplex [FDM] communication systemсельси́нная систе́ма — synchro systemсельси́нная систе́ма в индика́торном режи́ме — synchro-repeater [direct-transmission synchro] systemсельси́нная систе́ма в трансформа́торном режи́ме — synchro-detector [control-transformer synchro] systemсельси́нная, двухотсчё́тная систе́ма — two-speed [coarse-fine] synchro systemсельси́нная, дифференциа́льная систе́ма — differential synchro systemсельси́нная, одноотсчё́тная систе́ма — singlespeed synchro systemсисте́ма сил — force systemсисте́ма синхрониза́ции — timing [synchronizing] mechanismсинхро́нная систе́ма — synchronous systemследя́щая систе́ма — servo (system)следя́щая, позицио́нная систе́ма — positional servo (system)следя́щая систе́ма с не́сколькими входны́ми возде́йствиями — multi-input servo (system)следя́щая систе́ма с предваре́нием — predictor servo (system)систе́ма слеже́ния — tracking systemсисте́ма слеже́ния по да́льности — range tracking systemсисте́ма слеже́ния по ско́рости измене́ния да́льности — range rate tracking systemсисте́ма сма́зки — lubrication (system)систе́ма сма́зки, принуди́тельная — force(-feed) lubrication (system)систе́ма сма́зки, разбры́згивающая — splash lubrication (system)сма́зочная систе́ма — lubrication (system)систе́ма с мно́гими переме́нными — multivariable systemсисте́ма сниже́ния шу́ма — noise reduction systemсисте́ма с обра́тной свя́зью — feedback systemСо́лнечная систе́ма — solar systemсисте́ма сопровожде́ния — tracking systemсисте́ма со свобо́дными пове́рхностями — unbounded systemсисте́ма с пара́метрами, изменя́ющимися во вре́мени — time variable [time-variant] systemсисте́ма с постоя́нным резерви́рованием — parallel-redundant systemсисте́ма с разделе́нием вре́мени — time-sharing systemсисте́ма с распределё́нными пара́метрами — distributed parameter systemсисте́ма с самоизменя́ющейся структу́рой — self-structuring systemсисте́ма с сосредото́ченными пара́метрами — lumped-parameter [lumped-constant] systemстати́ческая систе́ма — киб. constant-error system; ( в следящих системах) type O servo systemсисте́ма, стати́чески неопредели́мая мех. — statically indeterminate systemсисте́ма, стати́чески определи́мая мех. — statically determinate systemсисте́ма стира́ния ( записи) — erasing systemстохасти́ческая систе́ма — stochastic systemсто́чная систе́ма мор. — deck drain systemсудова́я систе́ма — ship systemсисте́ма с фикси́рованными грани́цами — bounded systemсисте́ма счисле́ния — number(ing) system, notationсисте́ма счисле́ния, восьмери́чная — octal number system, octonary notationсисте́ма счисле́ния, двенадцатери́чная — duodecimal number system, duodecimal notationсисте́ма счисле́ния, двои́чная — binary system, binary notationсисте́ма счисле́ния, двои́чно-десяти́чная — binary-coded decimal system, binary-coded decimal [BCD] notationсисте́ма счисле́ния, девятери́чная — nine number systemсисте́ма счисле́ния, десяти́чная — decimal number system, decimal notationсисте́ма счисле́ния, непозицио́нная — non-positional notationсисте́ма счисле́ния, позицио́нная — positional number notationсисте́ма счисле́ния пути́, возду́шно-до́плеровская навиг. — airborne Doppler navigatorсисте́ма счисле́ния, трои́чная — ternary number system, ternary notationсисте́ма счисле́ния, шестнадцатери́чная — hexadecimal number system, hexadecimal notationтелевизио́нная светокла́панная систе́ма — light-modulator [light-modulating] television systemтелегра́фная многокра́тная систе́ма ( с временным распределением) — time-division multiplex (transmission), time division telegraph systemтелеметри́ческая систе́ма — telemetering systemтелеметри́ческая, промы́шленная систе́ма — industrial telemetering systemтелеметри́ческая, то́ковая систе́ма — current-type telemeterтелеметри́ческая, часто́тная систе́ма — frequency-type telemeterтелефо́нная, автомати́ческая систе́ма — dial telephone systemтелефо́нная систе́ма с ручны́м обслу́живанием — manual-switchboard telephone systemтермодинами́ческая систе́ма — thermodynamic systemтехни́ческая систе́ма (в отличие от естественных, математических и т. п.) — engineering systemсисте́ма тона́льного телеграфи́рования — voice-frequency multichannel systemто́пливная систе́ма — fuel systemто́пливная систе́ма с пода́чей само́тёком — gravity fuel systemтормозна́я систе́ма ( автомобиля) — brake systemтрёхкомпоне́нтная систе́ма — ternary [three-component] systemтрёхпроводна́я систе́ма эл. — three-wire systemтрёхфа́зная систе́ма эл. — three-phase systemтрёхфа́зная систе́ма с глухозаземлё́нной нейтра́лью эл. — solidly-earthed-neutral three-phase systemтрёхфа́зная, симметри́чная систе́ма эл. — symmetrical three-phase systemтрёхфа́зная систе́ма с незаземлё́нной нейтра́лью эл. — isolated-neutral three-phase systemтрю́мная систе́ма мор. — bilge systemсисте́ма тяг — linkageтя́го-дутьева́я систе́ма — draught systemсисте́ма УВД — air traffic control [ATC] systemсисте́ма управле́ния — control systemсисте́ма управле́ния, автомати́ческая — automatic control systemсисте́ма управле́ния без па́мяти — combinational (control) systemсисте́ма управле́ния возду́шным движе́нием — air traffic control [ATC] systemсисте́ма управле́ния произво́дством [предприя́тием], автоматизи́рованная [АСУП] — management information system, MISсисте́ма управле́ния с вычисли́тельной маши́ной — computer control systemсисте́ма управле́ния с па́мятью — sequential (control) systemсисте́ма управле́ния с предсказа́нием — predictor control systemсисте́ма управле́ния технологи́ческим проце́ссом, автоматизи́рованная [АСУТП] — (automatic) process control systemсисте́ма управле́ния, цифрова́я — digital control systemуправля́емая систе́ма ( объект управления) — controlled system, controlled plantуправля́ющая систе́ма ( часть системы управления) — controlling (sub-)systemупру́гая систе́ма ( гравиметра) — elastic systemсисте́ма уравне́ний — set [system] of equations, set of simultaneous equationsсисте́ма уравне́ния объё́ма ( ядерного реактора) — pressurizing systemуравнове́шенная систе́ма — balanced systemусто́йчивая систе́ма — stable systemфа́новая систе́ма мор. — flushing [sewage-disposal] systemсисте́ма физи́ческих величи́н — system of physical quantitiesхи́мико-технологи́ческая систе́ма — chemical engineering systemхими́ческая систе́ма — chemical systemсисте́ма ЦБ-АТС тлф. — dial systemсисте́ма цветно́го телеви́дения, совмести́мая — compatible colour-television systemсисте́ма це́нтра масс — centre-of-mass [centre-of-gravity, centre-of-momentum] systemсисте́ма цифрово́го управле́ния ( не путать с числовы́м управле́нием) — digital control system (not to be confused with numeric control system)систе́ма «челове́к — маши́на» — man-machine systemшарни́рная систе́ма — hinged systemшарни́рно-стержнева́я систе́ма — hinged-rod systemшпре́нгельная систе́ма — strutted [truss] systemсисте́ма эксплуата́ции телефо́нной свя́зи, заказна́я — delay operationсисте́ма эксплуата́ции телефо́нной свя́зи, ско́рая — demand working, telephone traffic on the demand basisэкстрема́льная систе́ма — extremal systemсисте́ма электро́дов ЭЛТ — CRT electrode structureэлектроже́зловая систе́ма ж.-д. — (electric) token systemэлектрохими́ческая систе́ма — electrochemical systemэлектрохими́ческая, необрати́мая систе́ма — irreversible electrochemical systemэлектрохими́ческая, обрати́мая систе́ма — reversible electrochemical systemэлектроэнергети́ческая систе́ма — electric power systemсисте́ма элеме́нтов Менделе́ева, периоди́ческая — Mendeleeff's [Mendeleev's, periodic] law, periodic system, periodic tableсисте́ма элеме́нтов ЦВМ — computer building-block rangeэнергети́ческая систе́ма — power systemэнергети́ческая, еди́ная систе́ма — power gridэнергети́ческая, объединё́нная систе́ма — interconnected power system -
29 Glenck, Karl Christian Friedrich
SUBJECT AREA: Mining and extraction technology[br]b. 13 April 1779 Schwäbisch Hall, Germanyd. 21 November 1845 Gotha, Germany[br]German salt-mining expert who introduced large-scale salt explorations.[br]Having studied law at the University of Erlangen, he became Confidential Secretary to the Prince of Hohenlohe-Ingelfingen, in whose territory his father had been in charge of a saltworks. When this small country fell to Württemberg in 1806, Glenck continued his mineralogical and geological studies in order to develop methods of finding deposits of salt. He was the first to carry out systematic large-scale salt explorations in Germany, mostly in southern and central parts, and achieved remarkable results that far exceeded former non-systematic findings. He worked either on behalf of governments or companies or at his own risk, and in the early 1820s he settled in Gotha to live in the centre of the regions of greatest interest to him.His career began in 1819 with the discovery of the deposits of Ludwigshall near Wimpfen, Neckar, and prospecting salt near Basel in 1836 was his greatest success: Schweizerhall, opened one year later, made Switzerland self-sufficient in salt production. For fifteen years he had invested large sums into this project, which became the fifth salt-works to come into existence due to his drilling. Glenck worked with stir rods and he developed several new technical devices, such as casing the bore holes with iron pipes instead of wood (1830), and using wooden instead of iron rods to reduce the weight (1834). A flexible connection between rod and drill was to be introduced later by Karl von Oeynhausen. One of Glenck's most important followers in the field of deep-drilling was K.G. Kind.[br]Further ReadingW.Carlé, 1969, "Die Salinistenfamilie Glenck", Lebensbilder aus Schwaben und Franken 11: 118–49 (with substantial biographical information).D.Hoffmann, 1959, 150 Jahre Tiefbobrungen in Deutschland, Vienna and Hamburg, (provides an evaluation of his technological developments).WKBiographical history of technology > Glenck, Karl Christian Friedrich
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30 Humfrey, William
SUBJECT AREA: Metallurgy[br]b. c.1515d. 14 July 1579[br]English goldsmith and Assay Master of the Royal Mint who attempted to introduce brass production to England.[br]William Humfrey, goldsmith of the parish of St Vedast, was appointed Assay Master of the Royal Mint in 1561. At the Tower of London he assumed responsibility for the weight of silver and for production standards at a time of intense activity in recoining the debased coinage of the realm. Separation of copper from the debased silver involved liquation techniques which enabled purification of the recovered silver and copper. German co-operation in introducing these methods to England developed their interest in English copper mining, resulting in the formation of the Mines Royal Company. Shareholders in this government-led monopoly included Humfrey, whose assay of Keswick copper ore, mined with German expertise, was bitterly disputed. As a result of this dispute, Humfrey promoted the formation of a smaller monopoly, the Company of Mineral Battery Works, with plans to mine lead and especially the zinc carbonate ore, calamine, using it to introduce brassmaking and wire manufacture into England. Humfrey acquired technical assistance from further skilled German immigrants, relying particularly on Christopher Schutz of Annaberg in Saxony, who claimed experience in such matters. However, the brassmaking project set up at Tintern was abandoned by 1569 after failure to make a brass suitable for manufacturing purposes. The works changed its production to iron wire. Humfrey had meanwhile been under suspicion of embezzlement at the Tower in connection with his work there. He died intestate while involved in litigation regarding infringement of rights and privileges claimed from his introduction of new techniques in later lead-mining activities under the auspices of the Company of Mineral and Battery Works.[br]Further ReadingM.B.Donald, 1961, Elizabethan Monopolies, London: Oliver \& Boyd (the most detailed account).——1955, Elizabethan Copper, reprinted 1989, Michael Moon.JD -
31 Momma (Mumma), Jacob
SUBJECT AREA: Metallurgy[br]b. early seventeenth century Germanyd. 1679 England[br]German (naturalized English) immigrant skilled in the manufacture and production of brass, who also mined and smelted copper.[br]The protestant Momma family were well known in Aachen, the seventeenth-century centre of German brass production. Subjected to religious pressures, some members of the family moved to nearby Stolberg, while others migrated to Sweden, starting brass manufacture there. Jacob travelled to England, establishing brassworks with two German partners at Esher in Surrey in 1649; theirs was the only such works in England to survive for more than a few years during the seventeenth century.Jacob, naturalized English by 1660, is often referred to in England as Mummer or another variant of his name. He became respected, serving as a juror, and was appointed a constable in 1661. During the 1660s Momma was engaged in mining copper at Ecton Hill, Staffordshire, where he was credited with introducing gunpowder to English mining technology. He smelted his ore at works nearby in an effort to secure copper supplies, but the whole project was brief and unprofitable.The alternative imported copper required for his brass came mainly from Sweden, its high cost proving a barrier to viable English brass production. In 1662 Momma petitioned Parliament for some form of assistance. A year later he pleaded further for higher tariffs against brass-wire imports as protection from the price manipulation of Swedish exporters. He sought support from the Society of Mineral and Battery Works, the Elizabethan monopoly (see Dockwra, William) claiming jurisdiction over the country's working of brass, but neither petition succeeded. Despite these problems with the high cost of copper supplies in England, Momma continued his business and is recorded as still paying hearth tax on his twenty brass furnaces up to 1664. Although these were abandoned before his death and he claimed to have lost £6,000 on his brassworks, his wire mills survived him for a few years under the management of his son.[br]Further ReadingJ.Morton, 1985, The rise of the modern copper and brass industry: 1690 to 1750, unpublished thesis: University of Birmingham, 16–25.J.Day, 1984, "The continental origins of Bristol Brass", Industrial Archaeology Review 8/1: 32–56.John Robey, 1969, "Ecton copper mines in the seventeenth century", Bulletin of the Peak District Mines Historic Society 4(2):145–55 (the most comprehensive published account).JD -
32 contractor
сущ.1) эк., юр. подрядчик, контрактор; поставщик (физическое или юридическое лицо, выполняющее какие-л. работы или оказывающее услуги по контракту)ATTRIBUTES:
a/v contractor — поставщик аудио- и видеооборудования
See:advertising contractor, agricultural contractor, associate contractor, co-contractor, christmas-tree contractor, defense contractor, development contractor, exhibition contractor, farm labor contractors, federal contractor, field contractor, general contractor, government contractor, haulage contractor, home improvement contractor, independent contractor, joint contractor, low level contractor, mail contractor, main contractor, original contractor, outside contractor, poster contractor, prime contractor, private contractor, public contractor, specialist contractor, subcontractor, sub-contractor, contractor agreement, contractor loan, contractor's all risks, contractor's capability, contractor's fee, contractor's services, Building Equipment Contractors, Building Finishing Contractors, contractor controlled insurance program, contractor performance evaluation, contractor-controlled insurance program, Foundation, Structure, and Building Exterior Contractors, Foundation, Structure, and Building Exterior Contractors, Foundation, Structure, and Building Exterior Contractors, Foundation, Structure, and Building Exterior Contractors, Foundation, Structure, and Building Exterior Contractors, Foundation, Structure, and Building Exterior Contractors, Foundation, Structure, and Building Exterior Contractors, Foundation, Structure, and Building Exterior Contractors, Foundation, Structure, and Building Exterior Contractors, Foundation, Structure, and Building Exterior Contractors, Foundation, Structure, and Building Exterior Contractors, Foundation, Structure, and Building Exterior Contractors, Foundation, Structure, and Building Exterior Contractors, Foundation, Structure, and Building Exterior Contractors2) эк., юр., амер. контрактор* (принципал, дающий поручение поверенному на разовой основе)See:
* * *
контрактор, подрядчик.* * *1) исполнитель; 2) /construction-man/ подрядчик* * *. организация или лицо, принимающие на себя определенные обязательства по контракту. . Словарь экономических терминов 1 .* * *-----специализированная фирма (организация), выполняющая строительно-монтажные работы при сооружении объектов в стране заказчика на основе договоров подряда на капитальное строительство -
33 IPM
1) Компьютерная техника: Irs Pcr Multiplex2) Авиация: Inspection Procedures Manual3) Военный термин: Intelligence Programs Management, Interface Processor for Imagery Exchange, Interpersonal Messaging, in-service preventive maintenance, industrial preparedness measures, inspection progress notification4) Техника: incidental phase modulation, incremental phase modulation, interference prediction model, ion engine propulsion module5) Сельское хозяйство: Improved Pesticide Marketing, Integrated Pest Management - комплексная защита растений от вредителей (уничтожение насекомых-вредителей другими (полезными) насекомыми без применения химикатов), Integrated Pest Management (уничтожение насекомых-вредителей другими (полезными) насекомыми без применения химикатов)6) Лингвистика: ЧМС (сокр. от instances per million words - частота (встречаемости) на миллион словоформ)7) Биржевой термин: Investment Per Member8) Телекоммуникации: Interpersonal Messaging System9) Сокращение: Institute of Personnel Management, Integrated Propulsion Module, Interpersonal Message10) Университет: Institute Of Psychosexual Medicine11) Физика: Ionization Profile Monitor12) Физиология: Improved Pathogen Mortality13) Электроника: Intelligent Power Module14) Вычислительная техника: Impulses Per Minute, independent peripheral manufacturer15) Нефть: профилактическое техническое обслуживание в процессе эксплуатации (in-service preventive maintenance)16) Банковское дело: Integrated Product Message-сообщение для интегрированных продуктов (формат сообщений для карт EMV)17) Фирменный знак: Integrated Pest Management18) Экология: интеллектуальная система борьбы с вредителями19) СМИ: Information Publishing Management20) Деловая лексика: Integrated People Management, Integrated Plant Management, Intelligent People Management, Intense Paper Management, Internet Provider Management21) Сетевые технологии: intelligent power management, интеллектуальное управление питанием22) Программирование: Ignore Programmer's Mistakes23) Контроль качества: inventory policy model24) Телефония: Internetwork Performance Monitor25) Химическое оружие: Integrated Project Management26) Макаров: International Power Market27) Расширение файла: Images Per Minute28) Программное обеспечение: Interactive Presentation Manager29) Единицы измерений: Impressions Per Minute30) Международная торговля: International Project Management31) Базы данных: Interaction Pattern Mining -
34 ipm
1) Компьютерная техника: Irs Pcr Multiplex2) Авиация: Inspection Procedures Manual3) Военный термин: Intelligence Programs Management, Interface Processor for Imagery Exchange, Interpersonal Messaging, in-service preventive maintenance, industrial preparedness measures, inspection progress notification4) Техника: incidental phase modulation, incremental phase modulation, interference prediction model, ion engine propulsion module5) Сельское хозяйство: Improved Pesticide Marketing, Integrated Pest Management - комплексная защита растений от вредителей (уничтожение насекомых-вредителей другими (полезными) насекомыми без применения химикатов), Integrated Pest Management (уничтожение насекомых-вредителей другими (полезными) насекомыми без применения химикатов)6) Лингвистика: ЧМС (сокр. от instances per million words - частота (встречаемости) на миллион словоформ)7) Биржевой термин: Investment Per Member8) Телекоммуникации: Interpersonal Messaging System9) Сокращение: Institute of Personnel Management, Integrated Propulsion Module, Interpersonal Message10) Университет: Institute Of Psychosexual Medicine11) Физика: Ionization Profile Monitor12) Физиология: Improved Pathogen Mortality13) Электроника: Intelligent Power Module14) Вычислительная техника: Impulses Per Minute, independent peripheral manufacturer15) Нефть: профилактическое техническое обслуживание в процессе эксплуатации (in-service preventive maintenance)16) Банковское дело: Integrated Product Message-сообщение для интегрированных продуктов (формат сообщений для карт EMV)17) Фирменный знак: Integrated Pest Management18) Экология: интеллектуальная система борьбы с вредителями19) СМИ: Information Publishing Management20) Деловая лексика: Integrated People Management, Integrated Plant Management, Intelligent People Management, Intense Paper Management, Internet Provider Management21) Сетевые технологии: intelligent power management, интеллектуальное управление питанием22) Программирование: Ignore Programmer's Mistakes23) Контроль качества: inventory policy model24) Телефония: Internetwork Performance Monitor25) Химическое оружие: Integrated Project Management26) Макаров: International Power Market27) Расширение файла: Images Per Minute28) Программное обеспечение: Interactive Presentation Manager29) Единицы измерений: Impressions Per Minute30) Международная торговля: International Project Management31) Базы данных: Interaction Pattern Mining -
35 ведомость
2) Naval: maintenance project, ships maintenance project3) Military: summary5) Railway term: quantity sheet6) Law: gazette8) Accounting: policy analysis (главный элемент в системе бухгалтерского учёта), schedule, subsidiary ledger9) Mining: chart10) Advertising: work sheet12) Sakhalin energy glossary: input sheet13) Automation: bill14) Quality control: form15) leg.N.P. account, voucher -
36 контрольная точка
1) General subject: (хода проектирования) project milestone (дата в плане выполнения проекта (project schedule), к которой должен быть выполнен определённый этап работ, например подготовка требований к системе, сдача отдельных подсистем и т.п.)2) Computers: spy point3) Geology: ordnance datum4) Aviation: fix point5) Medicine: restriction point6) Military: witness point7) Engineering: benchmark (сравнения), check point, checkpoint, measure point, measurement point, measuring point, monitored point, point of control, read point (РЧИД), readpoint (в РЧИД), sample point, set point, test point, reference8) Construction: airport reference point (аэродромного ориентира), forced point (проложения трассы), reference zero9) Mathematics: program breakpoint10) Geodesy: ordinance-datum, ordnance-datum11) Polygraphy: aim point12) Telecommunications: control terminal, monitoring point, test point jack13) Information technology: benchmark (для сравнения), breakpoint (программы), milestone, test point (для улучшения контролепригодности схемы)14) Oil: control point, reference point, rescue point15) Cartography: fiducial point (в измерениях)16) Metrology: check point (схемы), test point (схемы)17) Coolers: reference pocket18) Business: point of reference19) Household appliances: sense point20) Drilling: datum mark21) Programming: (хода проектирования) milestone22) Automation: inspection point, quality checkpoint23) Arms production: (опорная) control point, fixed point24) General subject: pickup (давления, температуры)25) Makarov: rescue point (в программе)26) Gold mining: offset point27) SAP.tech. reference date/time28) Research and development: point of inspection29) Pharmacy: (при отборе проб) control point (точка в чистом помещении, в которой выполняется контроль биозагрязнений и в которой опасность может быть предупреждена, устранена или снижена до допустимого уровня) -
37 проекты-аналоги
1) Geology: similar project data2) Gold mining: similar project ( data) -
38 составлять
1) General subject: account for, account for something (что-л.), amount, amount (to) (сумму), amount to, arrange, average, compile, compile (справочники и т.п.), compose, compose pass, compound, comprise, constitute, construct (предложение), draw up (документ), form, frame, hammer out, lay down (план), make (завещание, документ), make out, make up, pen, piece out (целое из частей), prepare (смесь и т. п.), prepare, print and circulate summary records, produce, project, put together, put together a program, redact, schedule (список, опись и т. п.), spell, sum (сумму), total, draw up, foot up, issue, lay down, work out (в такой-то цифре), develop (e.g. develop a list, develop a report - составить список, составить отчет etc.), average out at (в среднем), figure up to (в сумме), tot up to (в сумме), go to make up (что-л.), stand at2) Geology: comprise of5) Bookish: indite6) Construction: lay7) Mathematics: (сумму, количество) come up to, generate, give, (сумму, количество) range from to, reach (сумму), set up10) Economy: amount (сумму), combine to, compile (справочники), draw out (документ)14) Textile: design18) Drilling: build up19) Polymers: aggregate20) Programming: choose21) Automation: compile (программу), draw up (спецификацию)22) Makarov: compound smth (композицию какого-л. в-ва), draw out (проект и т.п.), draw up (договор, контракт, таблицу), go to make up (smth.) (что-л.), make out (напр. документ), piece together (целое из частей), reach (число), set, spin, spin out, come up to, draw up (договор контракт таблицу), draw up (документ график план и т. п.), draw up (проект и т. п.)23) Gold mining: comprise ( of)24) oil&gas: put together a project -
39 Egerton, Francis, 3rd Duke of Bridgewater
SUBJECT AREA: Ports and shipping[br]b. 21 May 1736d. 9 March 1803 London, England[br]English entrepreneur, described as the "father of British inland navigation".[br]Francis Egerton was the younger of the two surviving sons of Scroop, 1st Duke of Bridgewater, and on the death of his brother, the 2nd Duke, he succeeded to the title in 1748. Until that time he had received little or no education as his mother considered him to be of feeble intellect. His guardians, the Duke of Bedford and Lord Trentham, decided he should be given an opportunity and sent him to Eton in 1749. He remained there for three years and then went on the "grand tour" of Europe. During this period he saw the Canal du Midi, though whether this was the spark that ignited his interest in canals is hard to say. On his return to England he indulged in the social round in London and raced at Newmarket. After two unsuccessful attempts at marriage he retired to Lancashire to further his mining interests at Worsley, where the construction of a canal to Manchester was already being considered. In fact, the Act for the Bridgewater Canal had been passed at the time he left London. John Gilbert, his land agent at Worsley, encouraged the Duke to pursue the canal project, which had received parliamentary approval in March 1759. Brindley had been recommended on account of his work at Trentham, the estate of the Duke's brother-in-law, and Brindley was consulted and subsequently appointed Engineer; the canal opened on 17 July 1761. This was immediately followed by an extension project from Longford Brook to Runcorn to improve communications between Manchester and Liverpool; this was completed on 31 December 1772, after Brindley's death. The Duke also invested heavily in the Trent \& Mersey Canal, but his interests were confined to his mines and the completed canals for the rest of his life.It is said that he lacked a sense of humour and even refused to read books. He was untidy in his dress and habits yet he was devoted to the Worsley undertakings. When travelling to Worsley he would have his coach placed on a barge so that he could inspect the canal during the journey. He amassed a great fortune from his various activities, but when he died, instead of leaving his beloved canal to the beneficiaries under his will, he created a trust to ensure that the canal would endure; the trust did not expire until 1903. The Duke is commemorated by a large Corinthian pillar, which is now in the care of the National Trust, in the grounds of his mansion at Ashridge, Hertfordshire.[br]Further ReadingH.Malet, 1961, The Canal Duke, Dawlish: David \& Charles.JHBBiographical history of technology > Egerton, Francis, 3rd Duke of Bridgewater
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40 AMP
AMP, acquisition management plan————————AMP, adaptive microwave proximity (fuze)————————AMP, additional military production————————AMP, advanced management program————————AMP, advanced manned penetrator (project)проект создания перспективного пилотируемого самолета с ракетным вооружением для прорыва ПВО————————AMP, advanced Minuteman platform (program)программа разработки усовершенствованной платформы МБР "Минитмен"————————AMP, advanced multipurpose (missile)————————AMP, aircraft/missile project————————AMP, Allied Mining and Mine Countermeasures Publication————————AMP, altitude manned penetrator————————AMP, American Military Police————————AMP, annual material plan————————AMP, Army materiel plan————————AMP, Army Military Police————————AMP, army mine planter————————AMP, assisted maintenance period————————AMP, aviation modernization program————————AMP, avionics modernization programEnglish-Russian dictionary of planing, cross-planing and slotting machines > AMP
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